Method and system for implementing context based display of objects in web applications using link relationships

ABSTRACT

In general, the technology relates to a method for displaying objects on a webpage. The method includes receiving a request to transition to the webpage in a web application from a device and in response to the request: obtaining a set of object identifiers, providing the set of object identifiers to a link relationship manager and receiving, from the link relationship manager, a set of link relationships. The method further includes providing the set of link relationships and a link relationship evaluator to the device, where the link relationship evaluator only permits objects that are associated with a link relationship from the set of link relationships to be displayed on the device.

CROSS-REFERENCE TO RELATED APPLICATION

This application is a continuation of, and claims a benefit of priorityunder 35 U.S.C. 120 of the filing date of U.S. patent application Ser.No. 14/586,260, filed Dec. 30, 2014, now U.S. Pat. No. 9,710,439,entitled “METHOD AND SYSTEM FOR IMPLEMENTING CONTEXT BASED DISPLAY OFOBJECTS IN WEB APPLICATIONS USING LINK RELATIONSHIPS”, the entirecontents of which are hereby expressly incorporated by reference for allpurposes.

BACKGROUND

A network is a set of interconnected computing devices that maycommunicate with each other. Web applications are applications that aredeveloped for the network that includes a series of web pages. Each webpage may include various user interface components, e.g., buttons, etc.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 shows an example system in accordance with one or moreembodiments of the technology.

FIG. 2 shows the relationships between various components in the examplesystem in accordance with one or more embodiments of the technology.

FIG. 3 shows a method for displaying a webpage to a user in accordancewith one or more example embodiments of the technology.

FIG. 4 shows an example method for processing user generated events in aweb application in accordance with one or more embodiments of thetechnology.

FIGS. 5A-5C shows examples of various embodiments of the technology.

FIG. 6 shows an example computing system in accordance with one or moreembodiments of the technology.

DETAILED DESCRIPTION

Specific embodiments of the technology will now be described in detailwith reference to the accompanying figures. In the following detaileddescription of embodiments of the technology, numerous specific detailsare set forth in order to provide a more thorough understanding of thetechnology. However, it will be apparent to one of ordinary skill in theart that the technology may be practiced without these specific details.In other instances, well-known features have not been described indetail to avoid unnecessarily complicating the description

In the following description of FIGS. 1-6, any component described withregard to a figure, in various embodiments of the technology, may beequivalent to one or more like-named components described with regard toany other figure. For brevity, descriptions of these components will notbe repeated with regard to each figure. Thus, each and every embodimentof the components of each figure is incorporated by reference andassumed to be optionally present within every other figure having one ormore like-named components. Additionally, in accordance with variousembodiments of the technology, any description of the components of afigure is to be interpreted as an optional embodiment which may beimplemented in addition to, in conjunction with, or place of theembodiments described with regard to a corresponding like-namedcomponent in any other figure.

In general, embodiments of the technology relate to a method and systemfor displaying objects on a webpage. More specifically, embodiments ofthe technology relate to a method and system that determines which setof objects in a set of possible objects may be displayed on a webpagebased on the presence of a link relationship. A given object may beassociated with a link relationship in the event that the object isallowed to be displayed in the webpage, where the determination ofwhether the object is allowed to be displayed on the webpage is based ona current context of the web application.

FIG. 1 shows a system in accordance with one or more embodiments of thetechnology. The system includes a web server (100), a link relationshipmanager (102), a data service(s) (104), a data repository (106), and aresource manager (108). Each of these components is described below.

In one embodiment of the technology, a web server (100) is a computingsystem (e.g., a computing system described in FIG. 6) that includesfunctionality to host a web application (112).

In one embodiment of the technology, a web application (112) refers toan application that is implemented by a web server. The web applicationincludes a series of webpages and logic that is used to: (i) performvarious actions on the webpages and (ii) transition between webpages.The end user may interact with the web application via a web browser ona device. The logic associated with the web application (typically inthe form of executable code) may be performed by the web server, theclient device, or any combination thereof. Further, the logic associatedwith the web application may also enable the web server to communicatewith other web servers, data services, etc.

Continuing with the discussion of FIG. 1, hosting the web application(112) may include storing the necessary files for the web applicationincluding source code (e.g., HTML files, JavaScript, CSS files, etc),images, third-party libraries, etc. and then executing the webapplication (i.e., providing the requested files to the device (110)).Executing the web application may include receiving HTTP requests from adevice (110), processing the HTTP request, generating an HTTP responsebased on the processing of the HTTP request, and providing the HTTPresponse to the device.

In one embodiment of the technology, the web server (100) maycommunicate (e.g., send and receive HTTP requests) with one or more enduser devices (e.g., the computing systems in FIG. 6) over any wirednetwork, wireless network, or any combination thereof. In one embodimentof the technology, the devices each include at least one web browser(116) that permits the device to display webpages (118) (provided withHTTP responses) to the end users. The web browser (116) may also includefunctionality to execute computer code (e.g., JavaScript, etc). Morespecifically, the web browser may include functionality to execute thelink relationship evaluator (120), which may be implemented usingJavaScript or another programing or scripting language that can performthe functionality described below in FIG. 3.

In one embodiment of the technology, the web server (102) may alsointerface (directly or indirectly) with one or more data services (104).A data service may be implemented on a computing system (e.g., thecomputing system in FIG. 6). Further, a data service is an interface toone or more sources of data that are being used by the web application.The data service may receive requests from the web application forcertain data. In response, the data service may obtain the requesteddata from a data repository (106) and provide the obtained data to theweb application (112). The data repository (106) corresponds to anycombination of hardware and software that is required to persistentlystore data. For example, the data repository may be implemented as adatabase that includes a database management system (i.e., software thatmanages the database) and physical storage, e.g., magnetic storage,optical storage, solid state device, etc.

In one embodiment of the technology, the web server (100) may interfacewith a resource manager (108). The resource manager (108) may beimplemented on a computing system (e.g., a computing system described inFIG. 6). The resource manager (108) includes functionality to obtain (orotherwise determine) the current context of the web application (112),where the context may be maintained on a per-user basis. For example, ifuser A and user B are both using the web application, then the resourcemanager (108) may track the context for both user A and user Bseparately. In one embodiment of the technology, the context correspondsto the state of the web application for a given user. For example, ifuser A performs a specific action, the performance of that action maychange the context of the web application for user A. In anotherexample, context of the web application for a given user may dependenton the particular user regardless of what actions the user isperforming. For example, a user that has administrator level privilegesis associated with a different context than a user that does not haveadministrator level privileges. The specific pieces of information thatthe resource manager uses to determine the context of a particularapplication may vary based on the implementation of the resourcemanager.

The resource manager (108) also includes functionality to use thecontext in order to determine the possible set of valid linkrelationships that should be provided to the link relationship managerfor a given resource or set of resources. The resource manager (108) mayapply business logic to the context in order to determine which linkrelationships to provide to the link relationship manager. In oneembodiment of the technology, when the web application transitions to anew web page, the resource manager (108) updates the set of valid linksfor all resources that are available for the current context of the webapplication.

In one embodiment of the technology, the resource is a representationalstate transfer (ReST) resource. A ReST resource is an object with atype, associated data, relationships to other resources (including linkrelationships), and a set of methods that operate on the ReST resource(e.g., HTTP GET, HTTP POST, HTTP PUT, and HTTP DELETE methods). The ReSTresource may be defined using JavaScript Object Notation (JSON). Whenthe ReST resource is defined, the ReST resource includes a set of linkrelationships, where the set of link relationships correspond to alllink relationships associated with the ReST resource.

In one embodiment of the technology, the set of link relationshipsassociated with a given resource may be reduced to a set of valid linkrelationships. In one embodiment of the technology, the set of validlink relationships for a given resource corresponds to all potentiallink relationships that are available to a user given the currentcontext of the web application. For example, consider a scenario inwhich the resource that is being used by the web page is associated with11 link relationships (i.e., the set of all possible link relationshipsfor the resource) and the current context of the web application foruser 1 is context A. Based on the above two inputs, the resource managermay determine that only five of the link relationships are permittedwithin context A, these five link relationships are collectivelyreferred to as the set of valid link relationships.

In one embodiment of the technology, the web server (100) may alsointerface with a link relationship manager (102). The link relationshipmanager (102) may be implemented on a computing system (e.g., acomputing system described in FIG. 6). The link relationship manager(102) includes functionality to receive the set of object identifiersfor all objects that are associated with a given webpage in the webapplication and then return link relationships for only those objectsthat are to be displayed on the webpage. The link relationship manager(102) may make the object determination using the set of valid linkrelationships obtained from the resource manager (108).

Additional details about the components shown in FIG. 1 are provided inFIGS. 2-5C below.

The technology is not limited to the system configuration shown inFIG. 1. Further, while FIG. 1 shows single instances of various systemcomponents, those skilled in the art will appreciate that the system maybe multiple instances of one or more system components without departingfrom the technology.

FIG. 2 shows the relationship between various components in the systemin accordance with one or more embodiment of the technology.

In one embodiment of the technology, each web application (200) includesone or more webpages (202A, 202B). Further, each webpage (202) includesone or more objects (i.e., visible components) (204C, 204D). Examples ofobjects include, but are not limited to, buttons, menus, context menus,radio buttons, input fields, and text boxes. In one embodiment of thetechnology, an object is a component on a webpage that may: (i) triggeran action; (ii) obtain input from a user for an action; and/or (iii)display output to a user (via the webpage).

In one embodiment of the technology, each object is associated with anobject ID (206), where the object ID may be a numeric value, a characterstring, or an alphanumeric value. The object ID may uniquely identifythe object within the web application.

In one embodiment of the technology, a given object (204) may beassociated with a link relationship (208). In one embodiment of thetechnology, an object may be associated with a link relationship if theobject is to be displayed on the webpage. (See e.g., FIG. 3). The linkrelationship may include a link relationship ID and a uniform resourcelocation (URL). In one embodiment of the technology, the linkrelationship ID in a link relationship associated with an object is theobject ID of the object. In one embodiment of the technology, the URL isused as part of a data service request to a data service (212), whereselecting the object (204) triggers a request to the data service. Morespecifically, in one embodiment of the technology, the URL along withother inputs obtained from the webpage and/or web application are usedto generate an asynchronous JavaScript+ XML (AJAX) request. (See e.g.,FIG. 4). In one embodiment of the technology, when the resource isdefined using JSON, then the link relationship ID is associated with a“rel” tag and the URL is associated with a “href” tag.

In one embodiment of the technology, each object (204) may be associatedwith an action (210), that when triggered initiates the generation of adata service request. The action is typically performed within the webbrowser on the device where the results of the action: (i) a dataservice request being issued to the appropriate data service and (ii) acorresponding response which is subsequently output to/consumed by atarget entity (e.g., an object, another action, and/or another dataservice). The inputs (214) obtained by the action (210) and the output(214) generated by the data service (212) may be defined in a dataservice contract.

In one embodiment of the technology, the data service contract may beused during the design of the web application to associate the object,action, link relationship, and data service. In addition, the dataservice contract may also specify the inputs for the data service andthe output generated by the data service.

Turning to the flowcharts in FIGS. 3 and 4, while the various steps inthe flowcharts are presented and described sequentially, one of ordinaryskill will appreciate that some or all of the steps may be executed indifferent orders, may be combined or omitted, and some or all of thesteps may be executed in parallel.

FIG. 3 shows a method for displaying a webpage to a user in accordancewith one or more embodiments of the technology.

In Step 300, the transition to a new web page in the web application isinitiated. The initiation of the transition to the webpage may betriggered by receiving an HTTP request from the device. In response toreceiving the HTTP request (or any other event that may trigger thetransition to the webpage), the resource manager (108) may be notifiedof the transition and may proceed to update the set of valid linkrelationships for all resources that are available to the user of theweb application based on the current context of the web application. Theresource manager (108) may obtain the current context of the webapplication from: (i) the web server and/or (ii) another computingsystem that is tracking the current context of the web application.Alternatively, the resource manager (108) may include functionality totrack the current context of the web application and, as such, alreadyincludes the current context of the web application after it hastransitioned to the web page. The resource manager (108) maysubsequently provide the set of valid links to the link relationshipmanager at any time prior to Step 308. Alternatively, the linkrelationship manager may request the updated set of valid links any timeprior to step 308.

In Step 302, the objects IDs for all objects on the new web page areidentified. The object IDs may correspond to all possible objects thatmay displayed on the web page regardless of context (see e.g., FIG. 5A).The object IDs for all objects on the web page may be obtained byprocessing the HTML for the webpage.

In Step 304, the object IDs obtained in step 302 are provided to thelink relationship manager (e.g., FIG. 1, 102). The link relationshipmanager subsequently determines which link relationships to provide tothe web application. More specifically, in one embodiment of thetechnology, the link relationship manager attempts to match each objectID obtained in step 302 with a link relationship from set of valid linkrelationships that were determined (e.g., by the resource manager) usingthe current context of the web application. An object ID may be deemedto match a given link relationship from the set of link relationshipswhen the object ID matches a link relationship ID of a link relationshipfrom the set of valid link relationships. In one embodiment of thetechnology, step 304 includes performing an intersection between the setof valid link relationships and the object IDs obtained in step 302. Theresult of step 304 is a set of link relationships are subsequentlyprovided to the web server.

In Step 306, zero or more link relationships are received by the webserver from the link relationship manager. Each of the linkrelationships (see FIG. 2, 208) includes a link ID and a URL.

In Step 308, the HTML for the web page and the link relationshipsobtained in step 306 are provided to the device. The web browsersubsequently processes the HTML in order to render the web page for theuser to view. In one embodiment of the technology, the HTML includes areference to a link relationship evaluator (i.e., a script that isexecuted by the web browser, e.g., a JavaScript file). The web browsersubsequently obtains the link relationship evaluator from the webapplication (e.g., using an HTTP GET request). The link relationshipevaluator is subsequently executed by the web browser. Morespecifically, the link relationship evaluator obtains an object ID foreach object on the webpage and then determines if the web server hadprovided a corresponding link relationship. In one embodiment of thetechnology, the object ID has a corresponding link relationship if thereis a link relationship that includes a link relationship ID that matchesthe object ID.

In Step 310, the link relationship evaluator permits the display of allobjects for which there is an associated link relationship (asdetermined in step 308). If a given object does not have an associatedlink relationship, then the object is not displayed on the web page.

FIG. 4 shows a method for processing user generated events in a webapplication in accordance with one or more embodiments of thetechnology.

In Step 400, the web browser detects that the user has selected anobject displayed in the web page. For example, the user clicks orotherwise selects a button. The detection of the selection of the objecttriggers an action associated with the object.

In Step 402, the action, which is triggered by the detection of theselection of the object, is performed in order to obtain inputs. Morespecifically, as discussed above, one or more inputs for a data service(which is associated with the object as discussed in FIG. 2) areobtained. In one embodiment of the technology, the action is executedwithin an execution environment provided by the web browser.

In Step 404, the URL associated with the object (i.e., the objectselected by the user in step 400) is obtained. In one embodiment of thetechnology, the URL may be obtained by using the object ID as a key toidentify a matching link relationship. Said another way, a linkrelationship that includes a link relationship ID that matches theaforementioned object ID is identified. The URL associated with theidentified link relationship is subsequently obtained.

In Step 406, a data service request is generated using the URL alongwith the inputs obtained in step 404. In one embodiment of thetechnology, the data service request is an AJAX request and the URL,obtained by the link relationship, is updated to include the inputsobtained in step 404 in order to generate an updated URL. The updatedURL is subsequently included within the AJAX request. The data servicerequest is subsequently sent to the data service (FIG. 1, 104).

In Step 408, the web application subsequently receives a response fromthe data service (i.e., a response the data service request). Theresponse may then be used or otherwise provided to another entity on theweb page or another entity associated with the web page.

In Step 410, a subsequent action may be performed on the web page basedon the response received in step 408.

FIGS. 5A-5C show examples in accordance with one or more embodiments ofthe technology. The examples are not intended to limit the scope of thetechnology.

Referring to FIG. 5A, FIG. 5A shows a screenshot (500) of an integrateddevelopment environment that a web application designer may use to builda web application. In the IDE, the web application designer may createobjects (e.g., ACCEPT button, REJECT button, DELETE button, REOPENbutton). Further each of the aforementioned objects is associated withan Object ID, i.e., ACCEPT button is associated with object ID=ACCEPT,REJECT button is associated with object ID=REJECT, DELETE button isassociated with object ID=DELETE, and REOPEN button is associated withobject ID=REOPEN). These objects may be configured to be optionallydisplayed depending on the context of the web application. The webapplication designer may also include other visual content on a givenwebpage without departing from the technology, e.g., Status, Name,Description, (504), where such visual content is displayed on the webpage regardless of the context of the web application. Further, each ofthe objects (502) may be associated with an action (e.g., 506).

For purposes of this example assuming that there resource is only asingle resource that is available for the web application and that theresource is defined in JSON, as follows:

Resource ″name″: ″content″, ″type″: ″ecm20n_refdoc″, ″definition″:″http://10.31.69.74:8000/Testapp20/types/contents/ecm20n_refdoc″,″properties″: {  ″r_creation_date″: ″2014-11-14T16:25:02.000+05:30″, ″r_object_type″: ″ecm20n_refdoc″,  ″a_content_type″: ″pdf″, ″iscustdoc″: false,  ″refdoccopies″: 0,  ″owner_name″: ″UserA″, ″refdocversion″: 0.0,  ″i_folder_id″: [″0b01e2408001ce41″], ″r_modify_date″: ″2014-11-14T16:28:04.000+05:30″,  ″r_object_id″:″0901e2408001f4cf',  ″r_creator_name″: ″UserA″,  ″object_name″:″InsuranceGuide101.pdf″,  ″r_version_label″: [″1.0″, ″CURRENT″], ″r_modifier″: ″UserB″,  ″i_chronicle_id″: ″0901e2408001f4cf″ },″fragments″: { }, ″links″: [  {   ″rel″: ″ACCEPT”,   ″href':″contents/ecm20n_refdoc/0901e2408001f4cf″  },  {   ″rel″: ″REJECT″,  ″href': ″contents/ecm20n_refdoc/0901e2408001f4cf/″  },  {   ″rel″:″CLOSE”,   ″href': ″contents/ecm20n_refdoc″  },  {   ″rel″: ″REOPEN ″,  ″href': ″contents/ecm20n_refdoc/0901e2408001f4cf/versions?version-policy=current-version″  }, ]}

Referring to FIG. 5B, consider a scenario in which a web applicationthat includes the web page shown in FIG. 5A is deployed and assume thatUser A authored and uploaded that document entitled “Engineeringspecifications for cooling element 110-120” to the web application inorder to permit other users to review the document. When User A logsinto the web application, User A sees the screenshot (508) shown in FIG.5B. As shown in FIG. 5B, none of the objects (e.g., ACCEPT button,REJECT button, DELETE button, REOPEN button) that are on the web pageare visible to User A. Specifically, when User A logged into the webapplication, the context of the web application was set to the contextthat was associated with the user. In this example, because User A isthe author of the document User A the context associated with User A isauthor. Based on this context the Resource Manager provides an empty setof link relationships to the link relationship manager because none ofthe aforementioned buttons are to be displayed to a user with a contextof “author”. Accordingly, when the web browser attempts to render thewebpage shown in FIG. 5B, the link relationship evaluator does notidentify any link relationships associated with the following objects:ACCEPT button, REJECT button, DELETE button, REOPEN button. Accordingly,the link relationship evaluator prevents any of the aforementionedbuttons from being displayed to User A.

Referring to FIG. 5C, consider a scenario in which User B, who is areviewer of documents uploaded by User A logs into the web application.When User B logs into the web application, User B sees the screenshot(510) shown in FIG. 5C. As shown in FIG. 5C, certain objects are shown(e.g., ACCEPT button, REJECT button) and certain objects are not shown(e.g., DELETE button, REOPEN button). Specifically, when User B loggedinto the web application, the context of the web application was set tothe context that was associated with the user. In this example, becauseUser B is a reviewer of the document User A uploaded, the contextassociated with User B is “reviewer”. Based on this context, theResource Manager provides a set of link relationships to the linkrelationship manager that includes two link relationships (i.e., a setwith a cardinality of two): (i) {“rel”: “ACCEPT”, “href”:“contents/ecm20n_refdoc/0901e2408001f4cf”}, and (ii) {“rel”: “REJECT”,“href”: “contents/ecm20n_refdoc/0901e2408001f4cf/”}. Accordingly, whenthe web browser attempts to render the webpage shown in FIG. 5C, thelink relationship evaluator identifies link relationships associatedwith the ACCEPT button and the REJECT button. However, the linkrelationship evaluator does not identify any link relationships with theDELETE button and the REOPEN button. Accordingly, the link relationshipevaluator permits the ACCEPT button and the REJECT button to bedisplayed, and prevents the DELETE button and the REOPEN button frombeing displayed to User A.

One or more embodiments of the technology enable web applicationdesigners to build web applications that control access to variousresources via the web application by using link relationships to controlwhether an object is displayed on a given webpage, where the linkrelationships are context based. Further, embodiments of the technologyenable data services to be accessed using URLs that are provided withinthe link relationships that are associated with the displayed object.

One or more embodiments of the technology may also be used to determinewhether a given navigation object—such as a “Next” button or a“Previous” button should be displayed on a given webpage. For example,the resource manager may provide valid link relationships to the linkrelationship manager for one or more navigation objects, where thedetermination of whether there is a valid link relationshipcorresponding to a navigation object is based on whether a resource isavailable to the current user on another webpage (e.g., a prior orsubsequently webpage). If the resource is available on another webpage,then the appropriate link relationship may be provided to the linkrelationship manager. The aforementioned link relationship mayultimately be sent to the device (see e.g., FIG. 3), where it isprocessed as described, for example, in Step 310.

Embodiments of the technology may be implemented on a computing system.Any combination of mobile, desktop, server, embedded, or other types ofhardware may be used. For example, as shown in FIG. 6, the computingsystem (600) may include one or more computer processor(s) (602),associated memory (604) (e.g., random access memory (RAM), cache memory,flash memory, etc.), one or more storage device(s) (606) (e.g., a harddisk, an optical drive such as a compact disk (CD) drive or digitalversatile disk (DVD) drive, a flash memory stick, etc.), and numerousother elements and functionalities. The computer processor(s) (602) maybe an integrated circuit for processing instructions. For example, thecomputer processor(s) may be one or more cores, or micro-cores of aprocessor. The computing system (600) may also include one or more inputdevice(s) (610), such as a touchscreen, keyboard, mouse, microphone,touchpad, electronic pen, or any other type of input device. Further,the computing system (600) may include one or more output device(s)(608), such as a screen (e.g., a liquid crystal display (LCD), a plasmadisplay, touchscreen, cathode ray tube (CRT) monitor, projector, orother display device), a printer, external storage, or any other outputdevice. One or more of the output device(s) may be the same or differentfrom the input device(s). The computing system (600) may be connected toa network (612) (e.g., a local area network (LAN), a wide area network(WAN) such as the Internet, mobile network, or any other type ofnetwork) via a network interface connection (not shown). The input andoutput device(s) may be locally or remotely (e.g., via the network(612)) connected to the computer processor(s) (602), memory (604), andstorage device(s) (606). Many different types of computing systemsexist, and the aforementioned input and output device(s) may take otherforms.

Software instructions in the form of computer readable program code toperform embodiments of the technology may be stored, in whole or inpart, temporarily or permanently, on a non-transitory computer readablemedium such as a CD, DVD, storage device, a diskette, a tape, flashmemory, physical memory, or any other computer readable storage medium.Specifically, the software instructions may correspond to computerreadable program code that, when executed by a processor(s), isconfigured to perform embodiments of the technology.

Further, one or more elements of the aforementioned computing system(600) may be located at a remote location and connected to the otherelements over a network (612). Further, embodiments of the technologymay be implemented on a distributed system having a plurality of nodes,where each portion of the technology may be located on a different nodewithin the distributed system. In one embodiment of the technology, thenode corresponds to a distinct computing device. Alternatively, the nodemay correspond to a computer processor with associated physical memory.The node may alternatively correspond to a computer processor ormicro-core of a computer processor with shared memory and/or resources.

While the technology has been described with respect to a limited numberof embodiments, those skilled in the art, having benefit of thisdisclosure, will appreciate that other embodiments can be devised whichdo not depart from the scope of the technology as disclosed herein.Accordingly, the scope of the technology should be limited only by theattached claims.

What is claimed is:
 1. A system, comprising: a link relationship managerhaving a processor and a non-transitory computer readable storage mediumstoring a set of instructions executable to enable the link relationshipmanager to: receive a set of object identifiers for a set of objectsthat are associated with a webpage in a web application; compare eachobject identifier in the set of object identifiers to a first set ofvalid link relationships to determine a second set of valid linkrelationships, wherein each valid link relationship in the second set ofvalid link relationships matches at least one object identifier in theset of object identifiers; and provide the second set of valid linkrelationships to a web server configured to provide HTML for a web pageand link relationships received from the link relationship manager to aclient device in response to a request.
 2. The system of claim 1,wherein the instructions are executable to enable the link relationshipmanager to obtain the first set of valid link relationships from aresource manager executing on the system.
 3. The system of claim 2,wherein at least one of the valid link relationships in the first set ofvalid link relationships is included in a JavaScript Object Notation(JSON) formatted file.
 4. The system of claim 2, wherein the valid linkrelationships in the first set of valid link relationships aredetermined by the resource manager based on a current context of the webapplication.
 5. The system of claim 1, wherein the first set of validlink relationships corresponds to possible link relationships that areassociated with at least one resource that is being used by the webapplication.
 6. The system of claim 1, wherein determining the secondset of valid link relationships includes determining a uniform resourcelocation (URL) that includes information for a data service request. 7.The system of claim 1, wherein determining the second set of valid linkrelationships includes determining a link relationship identifier thatis associated with an object identifier of the set of objectidentifiers.
 8. The system of claim 1, wherein determining the secondset of valid link relationships includes performing an intersectionbetween the set of object identifiers and the first set of valid linkrelationships.
 9. The system of claim 1, wherein the request includes arequest to transition to the webpage in the web application.
 10. Thesystem of claim 1, wherein a cardinality of the second set of valid linkrelationships is less than a cardinality of the set of objectidentifiers.
 11. A method, comprising: receiving, by a link relationshipmanager executing on a computing device, a set of object identifiers fora set of objects that are associated with a webpage in a webapplication; determining a second set of valid link relationships bycomparing each object identifier in the set of object identifiers to afirst set of valid link relationships, wherein each valid linkrelationship in the second set of valid link relationships matches atleast one object identifier in the received set of object identifiers;and providing the second set of valid link relationships to a web serverconfigured to provide HTML for a web page and link relationshipsreceived from the link relationship manager to a client device inresponse to a request.
 12. The method of claim 11, comprising obtainingthe first set of valid link relationships from a resource managerexecuting on the computing device.
 13. The method of claim 12, whereinthe valid link relationships in the first set of valid linkrelationships are determined by the resource manager based on a currentcontext of the web application.
 14. The method of claim 11, whereindetermining the second set of valid link relationships includesperforming an intersection between the set of object identifiers and thefirst set of valid link relationships.
 15. The method of claim 11,wherein the request includes a request to transition to the webpage inthe web application.
 16. A non-transitory computer readable mediumstoring computer readable program code which, when executed by acomputer processor, enables the computer processor to: receive a set ofobject identifiers for a set of objects that are associated with awebpage in a web application; determine a second set of valid linkrelationships by comparing each object identifier in the set of objectidentifiers to a first set of valid link relationships, wherein eachvalid link relationship in the second set of valid link relationshipsmatches at least one object identifier in the set of object identifiers;and provide the second set of valid link relationships to a web serverconfigured to provide HTML for a web page and link relationshipsreceived from the link relationship manager to a client device inresponse to a request.
 17. The non-transitory computer readable mediumof claim 16, wherein the program code, when executed by the computerprocessor, enables the computer processor to obtain the first set ofvalid link relationships from a resource manager.
 18. The non-transitorycomputer readable medium of claim 17, wherein the valid linkrelationships in the first set of valid link relationships aredetermined by the resource manager based on a current context of the webapplication.
 19. The non-transitory computer readable medium of claim16, wherein determining the second set of valid link relationshipsincludes performing an intersection between the set of objectidentifiers and the first set of valid link relationships.
 20. Thenon-transitory computer readable medium of claim 16, wherein the requestincludes a request to transition to the webpage in the web application.